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2-[(2,6-Dichlorophenyl)Amino]Benzeneacetic Acid Potassium Salt
Linshang Chemical
|
HS Code |
320531 |
| Chemical Name | 2-[(2,6-Dichlorophenyl)Amino]Benzeneacetic Acid Potassium Salt |
| Molecular Formula | C14H10Cl2KNO2 |
| Molecular Weight | 336.24 |
| Appearance | Typically a solid |
| Solubility | Solubility characteristics would depend on the solvent; may have limited solubility in non - polar solvents |
| Melting Point | Specific melting point data would require experimental determination |
| Pka | Related to the acidic functionality of the benzeneacetic acid moiety, specific value needs determination |
| Ph | In solution, pH would be influenced by its dissociation and salt formation, value varies with concentration |
| Stability | Stability can be affected by factors like temperature, light, and humidity |
| Odor | Likely odorless or with a very faint, characteristic odor |
As an accredited 2-[(2,6-Dichlorophenyl)Amino]Benzeneacetic Acid Potassium Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 kg of 2-[(2,6 - dichlorophenyl)amino]benzeneacetic acid potassium salt in sealed bags. |
| Storage | 2-(2,6 - dichlorophenylamino)benzeneacetic acid potassium salt should be stored in a cool, dry place. Keep it away from heat sources, direct sunlight, and moisture. Store in a tightly - sealed container to prevent contact with air, which could potentially lead to degradation. Avoid storing near incompatible substances to prevent chemical reactions. |
| Shipping | 2-(2,6 - dichlorophenylamino)benzeneacetic acid potassium salt will be shipped in well - sealed containers, following strict chemical shipping regulations. Packaging ensures protection from moisture, light, and physical damage during transit. |
Competitive 2-[(2,6-Dichlorophenyl)Amino]Benzeneacetic Acid Potassium Salt prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
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Where to Buy 2-[(2,6-Dichlorophenyl)Amino]Benzeneacetic Acid Potassium Salt in China?
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What are the chemical properties of potassium 2- [ (2,6-dichlorophenyl) amino] phenylacetate?
2 - [ (2,6 -diethylamino) ethyl] benzylethyl ether is an organic compound with specific chemical properties.
It is colorless to light yellow liquid, with certain volatility and special odor. In terms of solubility, it can be soluble in common organic solvents, such as ethanol, ether, chloroform, etc., but it is difficult to dissolve in water. This is because the molecular structure contains long carbon chains and organic groups, which makes it have a weak force with water molecules and easier to interact with organic solvent molecules.
2 - [ (2,6 -diethylamino) ethyl] benzylethyl ether is chemically active, and the amino and ether bonds in the molecule can participate in many chemical reactions. The amino group is basic and can neutralize with acids to form salts. At the same time, although the ether bond is relatively stable, the ether bond breaking reaction can occur under the action of strong acid, high temperature or specific catalyst. In addition, the hydrogen atom on the benzene ring of the compound can undergo a substitution reaction. Under suitable conditions, halogen atoms, nitro and other groups can replace the hydrogen on the benzene ring, and then synthesize new organic compounds.
Due to its special chemical properties, 2 - [ (2,6 -diethylamino) ethyl] benzyl ether is widely used in the field of organic synthesis. It can be used as a pharmaceutical intermediate for the synthesis of drug molecules with specific structures, and also participates in the preparation of functional organic materials in the field of materials science.
It is colorless to light yellow liquid, with certain volatility and special odor. In terms of solubility, it can be soluble in common organic solvents, such as ethanol, ether, chloroform, etc., but it is difficult to dissolve in water. This is because the molecular structure contains long carbon chains and organic groups, which makes it have a weak force with water molecules and easier to interact with organic solvent molecules.
2 - [ (2,6 -diethylamino) ethyl] benzylethyl ether is chemically active, and the amino and ether bonds in the molecule can participate in many chemical reactions. The amino group is basic and can neutralize with acids to form salts. At the same time, although the ether bond is relatively stable, the ether bond breaking reaction can occur under the action of strong acid, high temperature or specific catalyst. In addition, the hydrogen atom on the benzene ring of the compound can undergo a substitution reaction. Under suitable conditions, halogen atoms, nitro and other groups can replace the hydrogen on the benzene ring, and then synthesize new organic compounds.
Due to its special chemical properties, 2 - [ (2,6 -diethylamino) ethyl] benzyl ether is widely used in the field of organic synthesis. It can be used as a pharmaceutical intermediate for the synthesis of drug molecules with specific structures, and also participates in the preparation of functional organic materials in the field of materials science.
What are the uses of 2- [ (2,6-dichlorophenyl) amino] phenylacetate potassium salts?
2-%5B%282%2C6-%E4%BA%8C%E6%B0%AF%E8%8B%AF%E5%9F%BA%29%E6%B0%A8%E5%9F%BA%5D%E8%8B%AF%E4%B9%99%E9%85%B8%E9%92%BE%E7%9B%90%E7%9A%84%E7%94%A8%E9%80%94%E6%9C%89%E4%B8%8B%E5%88%97%E4%B8%89%E7%A7%8D%EF%BC%9A
First, in the field of medicine, this compound has antibacterial and anti-inflammatory properties. Because of its unique chemical structure, it can precisely act on the key metabolic links of bacteria, interfere with the normal physiological activities of bacteria, thereby inhibiting the growth and reproduction of bacteria, and has a good effect on common bacterial infections. Many medical experiments have shown that it can effectively relieve inflammatory symptoms and relieve pain for patients.
Second, in the field of agriculture, it can be used as a plant growth regulator. It can adjust the hormone balance in plants, promote the development of plant roots, make root systems more developed, and enhance the ability of plants to absorb nutrients and moisture. At the same time, it can also improve the efficiency of plant photosynthesis, promote plant growth, increase crop yield, and help agricultural harvest.
Third, in the field of materials science, it can act as a polymer modifier. Incorporating it into polymer materials can improve the properties of materials. For example, to enhance the flexibility of materials, improve the stability and durability of materials, etc., so that materials can maintain good performance under different environmental conditions, broaden the application range of polymer materials, and are widely used in the manufacture of various industrial products and daily necessities.
First, in the field of medicine, this compound has antibacterial and anti-inflammatory properties. Because of its unique chemical structure, it can precisely act on the key metabolic links of bacteria, interfere with the normal physiological activities of bacteria, thereby inhibiting the growth and reproduction of bacteria, and has a good effect on common bacterial infections. Many medical experiments have shown that it can effectively relieve inflammatory symptoms and relieve pain for patients.
Second, in the field of agriculture, it can be used as a plant growth regulator. It can adjust the hormone balance in plants, promote the development of plant roots, make root systems more developed, and enhance the ability of plants to absorb nutrients and moisture. At the same time, it can also improve the efficiency of plant photosynthesis, promote plant growth, increase crop yield, and help agricultural harvest.
Third, in the field of materials science, it can act as a polymer modifier. Incorporating it into polymer materials can improve the properties of materials. For example, to enhance the flexibility of materials, improve the stability and durability of materials, etc., so that materials can maintain good performance under different environmental conditions, broaden the application range of polymer materials, and are widely used in the manufacture of various industrial products and daily necessities.
What is the preparation method of 2- [ (2,6-dichlorophenyl) amino] phenylacetate potassium salt?
To prepare [ (2,6 -dioxybenzyl) amino] benzyloxycarbonyl phenylacetic acid Streptomyces, the method is as follows:
First take an appropriate amount of starting materials and carefully handle them to achieve the desired purity of the reaction. Choose a suitable reaction vessel and place the reactants in the appropriate proportion in sequence. In the reaction system, it is advisable to precisely control the temperature, pressure and other conditions to ensure that the reaction proceeds smoothly. If the temperature is controlled within a certain range, the reaction rate and product purity can be achieved in an ideal environment.
During the reaction process, a variety of analytical methods, such as thin-layer chromatography, high-performance liquid chromatography, etc., need to be used to closely monitor the degree of reaction. When the reaction approaches the expected end point, the post-treatment operation is performed. This step involves separation, purification and other links. Extraction, column chromatography and other methods can be used to obtain a pure target product.
During the entire preparation process, every step needs to be careful, from the control of raw materials to the regulation of reaction conditions, to the post-processing process. Negligence in any detail may lead to impure products or low yields. Therefore, operators should have exquisite skills and rigorous attitude to produce high-quality [ (2,6-dioxybenzyl) amino] benzyloxycarbonyl phenylacetate Streptomyces.
First take an appropriate amount of starting materials and carefully handle them to achieve the desired purity of the reaction. Choose a suitable reaction vessel and place the reactants in the appropriate proportion in sequence. In the reaction system, it is advisable to precisely control the temperature, pressure and other conditions to ensure that the reaction proceeds smoothly. If the temperature is controlled within a certain range, the reaction rate and product purity can be achieved in an ideal environment.
During the reaction process, a variety of analytical methods, such as thin-layer chromatography, high-performance liquid chromatography, etc., need to be used to closely monitor the degree of reaction. When the reaction approaches the expected end point, the post-treatment operation is performed. This step involves separation, purification and other links. Extraction, column chromatography and other methods can be used to obtain a pure target product.
During the entire preparation process, every step needs to be careful, from the control of raw materials to the regulation of reaction conditions, to the post-processing process. Negligence in any detail may lead to impure products or low yields. Therefore, operators should have exquisite skills and rigorous attitude to produce high-quality [ (2,6-dioxybenzyl) amino] benzyloxycarbonyl phenylacetate Streptomyces.
What are the precautions for the storage and transportation of 2- [ (2,6-dichlorophenyl) amino] phenylacetate potassium salts?
Streptomycin 2 - [ (2,6 -dioxybenzyl) amino] benzylacetate is a precious antibiotic drug. When storing and transporting, you must pay attention to the following matters:
First, temperature control is essential. This drug is suitable for storage in a cool and dry place, and the temperature should usually be maintained at 2-8 ° C. If the temperature is too high, it may cause the molecular structure of the drug to be damaged, which will reduce the efficacy of the drug; and if the temperature is too low, it may cause the drug to freeze, which will also have an adverse effect on its quality and efficacy. Therefore, the temperature of the storage and transportation environment must be precisely controlled to ensure the stability of the drug.
Second, the humidity conditions should not be underestimated. Excessive humidity can easily make the drug absorb moisture, and then agglomerate and mildew, which seriously affects the quality of the drug. Therefore, the storage place should have good moisture-proof facilities, such as desiccants, to maintain the dry storage environment. During transportation, it is also necessary to prevent the intrusion of external moisture, and means such as sealed packaging can be used.
Third, light exposure also affects the drug. This drug should be stored away from light, because ultraviolet rays in the light may cause photochemical reactions in the drug, resulting in drug deterioration. Whether it is a storage container or a transportation package, materials with good light-shielding performance should be selected to avoid direct exposure of the drug to light.
Fourth, vibration and collision need to be carefully prevented. During transportation, the bumps in the vehicle, improper loading and unloading operations, etc., may cause damage to the packaging of the drug, and even affect the internal structure of the drug. Therefore, when transporting, ensure that the packaging is firm, use appropriate cushioning materials, and handle it with care during loading and unloading to prevent violent vibration and collision.
Fifth, during storage and transportation, it must be strictly separated from other chemicals. This drug has specific chemical properties. If it comes into contact with other chemicals or reacts chemically, it may not only damage the drug itself, but also produce harmful by-products. Therefore, a special storage area needs to be set up, and an independent means of transportation or effective isolation is used during transportation.
First, temperature control is essential. This drug is suitable for storage in a cool and dry place, and the temperature should usually be maintained at 2-8 ° C. If the temperature is too high, it may cause the molecular structure of the drug to be damaged, which will reduce the efficacy of the drug; and if the temperature is too low, it may cause the drug to freeze, which will also have an adverse effect on its quality and efficacy. Therefore, the temperature of the storage and transportation environment must be precisely controlled to ensure the stability of the drug.
Second, the humidity conditions should not be underestimated. Excessive humidity can easily make the drug absorb moisture, and then agglomerate and mildew, which seriously affects the quality of the drug. Therefore, the storage place should have good moisture-proof facilities, such as desiccants, to maintain the dry storage environment. During transportation, it is also necessary to prevent the intrusion of external moisture, and means such as sealed packaging can be used.
Third, light exposure also affects the drug. This drug should be stored away from light, because ultraviolet rays in the light may cause photochemical reactions in the drug, resulting in drug deterioration. Whether it is a storage container or a transportation package, materials with good light-shielding performance should be selected to avoid direct exposure of the drug to light.
Fourth, vibration and collision need to be carefully prevented. During transportation, the bumps in the vehicle, improper loading and unloading operations, etc., may cause damage to the packaging of the drug, and even affect the internal structure of the drug. Therefore, when transporting, ensure that the packaging is firm, use appropriate cushioning materials, and handle it with care during loading and unloading to prevent violent vibration and collision.
Fifth, during storage and transportation, it must be strictly separated from other chemicals. This drug has specific chemical properties. If it comes into contact with other chemicals or reacts chemically, it may not only damage the drug itself, but also produce harmful by-products. Therefore, a special storage area needs to be set up, and an independent means of transportation or effective isolation is used during transportation.
What are the effects of 2- [ (2,6-dichlorophenyl) amino] phenylacetate potassium salts on the environment and human health?
(Chain urea 2 - [ (2,6 -dioxybenzyl) amino] benzoate has many effects on the environment and human health.)
In terms of the environment, if this substance flows into natural water bodies, it may pose a hazard to aquatic organisms. Due to its unique chemical structure, it may be difficult to be rapidly decomposed by microorganisms in natural water bodies, and then accumulate in water bodies. This will not only interfere with the normal physiological metabolism of aquatic organisms, but also may change the chemical properties of water bodies and destroy the balance of aquatic ecosystems. For example, it may affect the physiological processes such as fish respiration and reproduction, resulting in a decrease in fish numbers and affecting the entire aquatic ecological food chain. If it enters the soil, it may chemically react with minerals and organic matter in the soil, change the pH and nutrient structure of the soil, inhibit the absorption of nutrients by plant roots, hinder plant growth, and even cause vegetation to wither and die, causing adverse effects on terrestrial ecosystems.
In terms of human health, it may be potentially toxic. If it is enriched into the human body through the food chain, it may cause damage to multiple systems of the human body. For example, it may affect the nervous system, causing headaches, dizziness, memory loss and other symptoms in the human body. It may also have an impact on the immune system, reduce the body's immunity, and make people more susceptible to various diseases. Furthermore, due to the presence of certain groups in its structure, it also poses a potential carcinogenic risk. Long-term exposure or ingestion may increase the risk of cancer and pose a serious threat to human health and safety.
In terms of the environment, if this substance flows into natural water bodies, it may pose a hazard to aquatic organisms. Due to its unique chemical structure, it may be difficult to be rapidly decomposed by microorganisms in natural water bodies, and then accumulate in water bodies. This will not only interfere with the normal physiological metabolism of aquatic organisms, but also may change the chemical properties of water bodies and destroy the balance of aquatic ecosystems. For example, it may affect the physiological processes such as fish respiration and reproduction, resulting in a decrease in fish numbers and affecting the entire aquatic ecological food chain. If it enters the soil, it may chemically react with minerals and organic matter in the soil, change the pH and nutrient structure of the soil, inhibit the absorption of nutrients by plant roots, hinder plant growth, and even cause vegetation to wither and die, causing adverse effects on terrestrial ecosystems.
In terms of human health, it may be potentially toxic. If it is enriched into the human body through the food chain, it may cause damage to multiple systems of the human body. For example, it may affect the nervous system, causing headaches, dizziness, memory loss and other symptoms in the human body. It may also have an impact on the immune system, reduce the body's immunity, and make people more susceptible to various diseases. Furthermore, due to the presence of certain groups in its structure, it also poses a potential carcinogenic risk. Long-term exposure or ingestion may increase the risk of cancer and pose a serious threat to human health and safety.
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